• Journal of the Korean Society for Precision Engineering
• /
• v.18 no.9
• /
• pp.18-24
• /
• 2001

• Journal of the Korean Society of Manufacturing Technology Engineers
• /
• v.9 no.5
• /
• pp.34-39
• /
• 2000

Application of ceramics has grown considerably due to significant improvement in their mechanical properties such as light weight, chemical stability and superior wear resistance. Despite these character, the use of ceramics has not increased because of poor machinability. The method of using of super-abrasives metal bond wheel was proposed. But it is difficult that super-abrasives metal bond wheel can be dressed. Recently, the technology of in-process electrolytic dressing is developed to solve this problem. If this method is applied, loading and glazing are disappeared apparently. The aim of this study is to determine the machining characteristics in terms of lapping wheel speed, machining time, pressurized weight to the workpiece and peak current using in-process electrolytic dressing applied to the CIB-diamond lapping wheel to achieve ultra-precision lapping machining technique.

• Proceedings of the Korean Society of Precision Engineering Conference
• /
• 1992.04a
• /
• pp.55-59
• /
• 1992

최근 신 연삭 공구인 미세한 지립의 다이아몬드 휠을 이용함으로써 고경도와 취성을 지니는 엔지 니어링 세라믹스등의 신소재및 초경재 등 난삭재류를 대상으로 경면 가공을 추구하고자 노력이 진행중이다. 이는 래핑이나 폴리싱 등의 유리 지립에 의한 경면 창성법에 비하여 가공 능률이나 가공 정도가 높고 곡면이나 홈 등의 복잡 형상부의가공에도적용할 수 있다는 잇점이 있기 때문이다. 따라서 현재 이러한 신 연삭 가공법은 지금까지 연삭 가공후에 연마 가공 공정을 부가함으로써 초정 밀 효과를 지닐 수 있었던 각종 부품들에대한 단일 최종 마무리가공 공정으로의 응용에많은 기대를 걸고 있다. 본 연구는 높은 압축 강도치, 고온경도치와 내마모성, 강성 등을 지님으로써 외부 압력에 대한 변형률이 극히 적어 금형 칫수에가까운 제품을 생산할 수 있다는 특성으로 근래그 사용도가 급증 하고 있는 초경합금 금형재를 대상으로 해그 동안 난삭재에 대한 최적 가공 조건 설정이 정립되어 있지 못했던 관계로 인하여 기존의 숙련자 경험에만 주로 의존 할 수 밖에 없었던 단순한 다이아몬드 연삭 공구의 활용추세로부터 탈피하고 Diamond wheel 및 범용 연삭 공구를 최적으로 활용함으로써 연삭 가공의 초정밀화를 달성하며후 가공을 생략할 수 있는 가공 공정을 창출 해내기위하여, 상관 관계를 연삭 저항 및 가공 표면 품위등의 측면으로분석, 평가해봄으로써 초정밀 가공 차원에서의 최적 가공 조건 설정을 위한 지침을 명확하게 규명하기 위하여 실험적으로 수행하게 된 것이다.

• Transactions of the Korean Society of Machine Tool Engineers
• /
• v.12 no.3
• /
• pp.1-7
• /
• 2003

In-process Electrolytic Dressing is a lapping method using electrolysis. This technology provides dressing to CIB-Diamond Lapping wheels during the lapping process for continuous protrude abrasive from super-abrasive wheels. so loading and glazing are disappeared apparently. Ultra-precision lapping of the machinable commies will be studied in the viewpoint of In-process Electrolytic Dressing. For ultra-precision lapping, need to develop an ultra-precision lapping system suitable metal bonded diamond wheel, and appropriate condition of u10a-precision lapping machining.

• Proceedings of the Korean Society of Precision Engineering Conference
• /
• 2004.10a
• /
• pp.537-542
• /
• 2004

Machinble Ceramics have some excellent properties as the material for the mechanical components. It is, however, very difficult to grind ceramics with high efficiency because of their high strength, hardness and brittleness. Lapping used diamond slurry and lapping by in-process electrolytic dressing is developed to solve this problem. On this paper, a comparative study of processing ability of lapping used diamond slurry and lapping by in-process electrolytic dressing.

• Transactions of the Korean Society of Machine Tool Engineers
• /
• v.17 no.4
• /
• pp.29-34
• /
• 2008

Application of ceramic has increased due to excellent mechanical properties, and machining of ceramic has demanded gradually a precision surface machining. For decreasing the surface roughness, the control of IED lapping parameters is very important. This paper deal with the analysis of the process parameters such as applied forces, percentage of h-BN and IED lapping time, developed based on Taguchi method. Also, SEM was used for monitoring of a machinable ceramic surface.

• Journal of the Korean Society for Precision Engineering
• /
• v.10 no.1
• /
• pp.42-51
• /
• 1993

Recently, WC-Co have some excellent properities as the material for the mechanical component such as metallic moulding parts, ball dies parts, and punch parts. This paper describes the surface roughness and grinding force caused by experimental study on the surface grinding of WC-Co with ultra-precision like a mirror shape using diamond wheel. Also, some investigations are carried out using WA grinding wheel to increase improved ground surface roughness such as polishing, lapping effect. Some important results obtained here are summarized as follow. 1) Within this experimental grinding condition, we can be obtained $R_{max}.\;2\mu\textrm{m}\;R_a\;0.3\mu\textrm{m}$ whichare the most favourable ground surface roughness using #140 diamond wheel, and improved surface roughness values about 20 .approx. 25% throughout 5 times sparkout grinding 2) The value of surface roughness is Rmax. $0.49\mu\textrm{m},\;R_a\;0.06\mu\textrm{m}$ using #600 diamond wheel. 3) The area of no rack zone is less than $F_{n}$ 0.27N/mm, Ft 0.009N/mm

• Journal of Astronomy and Space Sciences
• /
• v.21 no.2
• /
• pp.141-152
• /
• 2004

Optics fabrication process for precision space optical parts includes bound abrasive grinding, loose abrasive lapping and polishing. The traditional bound abrasive grinding with bronze bond cupped diamond wheel leaves the machine marks of about $20{mu}m$ rms in height and the subsurface damage of about 1 ${mu}m$ rms in height to be removed by subsequent loose abrasive lapping. We explored an efficient quantitative control of precision CNC grinding. The machining parameters such as grain size, work-piece rotation speed and feed rate were altered while grinding the work-piece surfaces of 20-100 mm in diameter. The input grinding variables and the resulting surface quality data were used to build grinding prediction models using empirical and multi-variable regression analysis. The effectiveness of such grinding prediction models was then examined by running a series of precision CNC grinding operation with a set of controlled input variables and predicted output surface quality indicators. The experiment achieved the predictability down to ${pm}20$ nm in height and the surface roughness down to 36 nm in height. This study contributed to improvement of the process efficiency reaching directly the polishing and figuring process without the need for the loose abrasive lapping stage.